Covariant coordinate transformations and scalar-field-matter interactions

Stanley A. Bruce

doi:10.1515/zna-2022-0165

Covariant coordinate transformations and scalar-field-matter interactions

Stanley A. Bruce^*

^*Autor correspondiente de este trabajo

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

Resumen

We propose a classical Lorentz invariant model of local scalar-field-matter interactions where the zeroth component of the space-time coordinates of a particle is modified by a background Klein-Gordon field. This model is not directly explained in terms of the standard model (SM) because the CPT symmetry is generally broken with a Hermitian Hamiltonian. Our ultimate goal (which is not explored here) is to construct a quantum field theory approach to tackle the matter-antimatter asymmetry problem. To understand the basics of the theory, two examples are discussed only at the quantum mechanical level: (i) a (quantum) harmonic oscillator with the occurrence of negative-energy eigenvalues where the effective energy-masses of the 'particle and antiparticle' are not symmetric with respect to the non-physical zero-energy mode of the oscillator; (ii) a Dirac particle in an electromagnetic (EM) linear potential.

Idioma original	Inglés
Páginas (desde-hasta)	931-940
Número de páginas	10
Publicación	Zeitschrift fur Naturforschung - Section A Journal of Physical Sciences
Volumen	77
N.º	10
DOI	https://doi.org/10.1515/zna-2022-0165
Estado	Publicada - 1 oct. 2022

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© 2022 Walter de Gruyter GmbH, Berlin/Boston.

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title = "Covariant coordinate transformations and scalar-field-matter interactions",

abstract = "We propose a classical Lorentz invariant model of local scalar-field-matter interactions where the zeroth component of the space-time coordinates of a particle is modified by a background Klein-Gordon field. This model is not directly explained in terms of the standard model (SM) because the CPT symmetry is generally broken with a Hermitian Hamiltonian. Our ultimate goal (which is not explored here) is to construct a quantum field theory approach to tackle the matter-antimatter asymmetry problem. To understand the basics of the theory, two examples are discussed only at the quantum mechanical level: (i) a (quantum) harmonic oscillator with the occurrence of negative-energy eigenvalues where the effective energy-masses of the 'particle and antiparticle' are not symmetric with respect to the non-physical zero-energy mode of the oscillator; (ii) a Dirac particle in an electromagnetic (EM) linear potential.",

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AB - We propose a classical Lorentz invariant model of local scalar-field-matter interactions where the zeroth component of the space-time coordinates of a particle is modified by a background Klein-Gordon field. This model is not directly explained in terms of the standard model (SM) because the CPT symmetry is generally broken with a Hermitian Hamiltonian. Our ultimate goal (which is not explored here) is to construct a quantum field theory approach to tackle the matter-antimatter asymmetry problem. To understand the basics of the theory, two examples are discussed only at the quantum mechanical level: (i) a (quantum) harmonic oscillator with the occurrence of negative-energy eigenvalues where the effective energy-masses of the 'particle and antiparticle' are not symmetric with respect to the non-physical zero-energy mode of the oscillator; (ii) a Dirac particle in an electromagnetic (EM) linear potential.

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Covariant coordinate transformations and scalar-field-matter interactions

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